Artículo de revista
Vitamin D increases A beta 140 Plasma levels and protects Lymphocytes from oxidative death in mild cognitive impairment patients
Fecha
2018Registro en:
Current Alzheimer Research, 15 (6): 561-569
10.2174/1567205015666171227154636
Autor
San Martín Rovirosa, Carol
Henriquez Luna, Mauricio
Chacon, Carlos
Ponce, Daniela P.
Salech Morales, Felipe
Rogers Castillo, Nicole
Behrens Pellegrino, María Isabel
Institución
Resumen
Background: Mild cognitive impairment (MCI) has an increased rate of progression to dementia. Alterations of some metabolic factors, such as deficiency of vitamin D, are a risk factor for cognitive deterioration. Vitamin D is involved in the clearance of beta-amyloid (A beta) from the brain. We have reported that lymphocytes from Alzheimer's disease (AD) patients have an increased susceptibility to oxidative death by H2O2 exposure, but currently it is unknown if this characteristic is modifiable in vivo. Objective: To determine if correction of low vitamin D levels protects lymphocytes from oxidative death and increases A beta 1-40 plasma levels in MCI and very early AD (VEAD) patients. Method: Sixteen MCI, 11 VEAD and 25 healthy control (HC) voluntaries were evaluated with the Clinical Dementia Rating (CDR), Montreal Cognitive assessment (MoCA), and Memory Index score (MIS). Lymphocyte death was measured by flow cytometry after 20h exposure to H2O2. In patients with low levels of vitamin D-11 MCI, 9 VEAD and 20 HC- lymphocyte H2O2-death, plasma A beta 1-40 levels and cognitive status were evaluated pre- and post-vitamin D supplementation for 6 months. Results: Lymphocytes from MCI and VEAD patients showed increased susceptibility to oxidative death at study entry. In MCI, but not VEAD patients, lymphocyte susceptibility to death and A beta 1-40 levels plasma levels improved after 6 months of vitamin D supplementation. In addition, cognitive status on follow-up (18 months) improved in MCI
patients after vitamin D supplementation. Conclusion: Vitamin D supplementation may be beneficial in MCI. The lack of effect in VEAD may be due to a more advanced stage or different characteristics of the neurodegenerative process.